Scientists trick the brain into sensing the movement of a prosthetic

With ANY brain cells at all in the thousands of stroke medical 'professionals' we should be able to come up with a protocol from this to increase sensation in stroke affected extremities. With better sensation comes better movement. As proven way back when Margaret Yekutiel wrote a whole book about this in 2001, 'Sensory Re-Education of the Hand After Stroke'

Scientists trick the brain into sensing the movement of a prosthetic

By Megan Thielking @meggophone

March 15, 2018

Marasco et. al/Science Translational Medicine

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esearchers at the Cleveland Clinic have created a new technology to trick the brain into thinking it can sense a prosthetic limb moving, just like it might sense an actual muscle moving.

“One of the things motorized prosthetics are missing is a sense of movement,” said Paul Marasco, a biomedical engineer at the Cleveland Clinic who led the new research, which was published this week in Science Translational Medicine.

When a muscle moves, there’s a feedback loop at work between the brain and the rest of the body. In an able-bodied person, the brain signals to a muscle to move, and that movement sends feedback to the brain that allows it to sense how a muscle is moving. It’s how we inherently know how far to reach, for example, to pick up a glass.

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In a person with a motorized prosthetic limb, though, there’s no loop — the brain can tell the prosthetic limb to move, but the prosthetic limb isn’t sending any messages back. That means it’s almost impossible to sense how a prosthetic is moving without looking directly at it.

Marasco and his colleagues designed a system that aims to give people with prosthetic limbs more precise control. To do so, they played a magic trick on the brain using what’s known as a “perceptual illusion.”

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“If you vibrate a muscle mechanically, you’ll get a sense in the joint that’s crossed by that muscle that it’s moving, even though it’s not,” Marasco explained. One example: the “Pinocchio illusion.” If you pinch your nose while your bicep is being hit with vibrations, you’ll feel like your arm is moving. To make sense of that, your brain will sense that your nose is extending, because it thinks your arm is moving. Like if you pinch your nose and vibrate your biceps, you get the sense your arm is moving.

“These illusions override reality, and they’re really powerful,” Marasco said.

Working with patients who’d had upper limb amputations, the researchers built a brain-machine interface by redirecting the nerves from an amputated hand to the muscles in a residual limb. They can vibrate the muscles in that limb to create a perceptual illusion, and programmed the prosthetic to match that movement.